Publications

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Publications acknowledging GRAPEDIA

    • Calderón L, Carbonell-Bejerano P, Muñoz C, Bree L, Sola C, Bergamin D, Tulle W, Gomez-Talquenca S, Lanz C, Royo C, Ibáñez J, Martinez-Zapater JM, Weigel D, Lijavetzky D (2024) Diploid genome assembly of the Malbec grapevine cultivar enables haplotype-aware analysis of transcriptomic differences underlying clonal phenotypic variation. Hortic Res. Mar 14;11(5):uhae080. doi: 10.1093/hr/uhae080. 
    • Orduña L, Santiago A, Navarro-Payá D, Zhang C, Wong DCJ, Matus JT. (2023) Aggregated gene co-expression networks predict transcription factor regulatory landscapes in grapevine. J Exp Bot.  Nov 21;74(21):6522-6540. doi: 10.1093/jxb/erad344. 

    • Shi X, Cao S, Wang X, Huang S, Wang Y, Liu Z, Liu W, Leng X, Peng Y, Wang N, Wang Y, Ma Z, Xu X, Zhang F, Xue H, Zhong H, Wang Y, Zhang K, Velt A, Avia K, Holtgräwe D, Grimplet J, Matus JT, Ware D, Wu X, Wang H, Liu C, Fang Y, Rustenholz C, Cheng Z, Xiao H, Zhou Y. (2023) The complete reference genome for grapevine (Vitis vinifera L.) genetics and breeding. Hortic Res. Apr 4;10(5):uhad061. doi: 10.1093/hr/uhad061. 

Publications using GRAPEDIA as a resource

    • Malacarne, G., Lagreze, J., Rojas San Martin, B. et al. (2024) Insights into the cell-wall dynamics in grapevine berries during ripening and in response to biotic and abiotic stressesPlant Mol Biol 114, 38  doi.org/10.1007/s11103-024-01437-w
    • Foresti C, Orduña L, Matus JT, Vandelle E, Danzi D, Bellon O, Tornielli GB, Amato A, Zenoni S.  (2024) NAC61 regulates late- and post-ripening osmotic, oxidative, and biotic stress responses in grapevine. J Exp Bot. Apr 15;75(8):2330-2350. doi: 10.1093/jxb/erad5
    • García-Abadillo J, Barba P, Carvalho T, Sosa-Zuñiga V, Lozano R, Carvalho HF, Garcia-Rojas M, Salazar E, Y Sánchez JI. Dissecting the complex genetic basis of pre- and post-harvest traits in Vitis vinifera L. using genome-wide association studies. Hortic Res. 2024 Jan 3;11(2):uhad283. doi: 10.1093/hr/uhad283. 
    • Magon G, De Rosa V, Martina M, Falchi R, Acquadro A, Barcaccia G, Portis E, Vannozzi A, De Paoli E (2023) Boosting grapevine breeding for climate-smart viticulture: from genetic resources to predictive genomics. Front Plant Sci. Dec 11;14:1293186. doi: 10.3389/fpls.2023.1293186. 
    • Orduña L, Santiago A, Navarro-Payá D, Zhang C, Wong DCJ, Matus JT. (2023) Aggregated gene co-expression networks predict transcription factor regulatory landscapes in grapevine. J Exp Bot.  Nov 21;74(21):6522-6540. doi: 10.1093/jxb/erad344. 
    • D’Incà E, Foresti C, Orduña L, Amato A, Vandelle E, Santiago A, Botton A, Cazzaniga S, Bertini E, Pezzotti M, Giovannoni JJ, Vrebalov JT, Matus JT, Tornielli GB, Zenoni S. (2023) The transcription factor VviNAC60 regulates senescence- and ripening-related processes in grapevine. Plant Physiol. Jul 3;192(3):1928-1946. doi: 10.1093/plphys/kiad050.
    • Velt A, Frommer B, Blanc S, Holtgräwe D, Duchêne É, Dumas V, Grimplet J, Hugueney P, Kim C, Lahaye M, Matus JT, Navarro-Payá D, Orduña L, Tello-Ruiz MK, Vitulo N, Ware D, Rustenholz C. (2023) An improved reference of the grapevine genome reasserts the origin of the PN40024 highly homozygous genotype. G3 (Bethesda). May 2;13(5):jkad067. doi: 10.1093/g3journal/jkad067. 
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